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Inclusive diffraction and leading baryons at HERA. Alice Valk árová Charles University, Pra gue. Representing H1 and ZEUS experiments. Low x workshop, Ischia 2009. HERA collider experiments. 27.5 GeV electrons/positrons on 920 GeV protons →√s=318 GeV two experiments: H1 and ZEUS
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Inclusive diffraction and leading baryons at HERA Alice Valkárová Charles University, Prague Representing H1 and ZEUS experiments Low x workshop, Ischia 2009 Low x workshop, Ischia 2009
HERA collider experiments • 27.5 GeV electrons/positrons on 920 GeV protons →√s=318 GeV • two experiments: H1 and ZEUS • HERA I: 16 pb-1 e-p, 120 pb–1 e+p • HERA II: ∼ 550 pb-1, ∼ 40% polarisation of e+,e- • closed July 2007, still lot of excellent data to analyse…… DIS:Probe structure of proton → F2 e Diffractive DIS: Probe structure of color singlet exchange → F2D Low x workshop, Ischia 2009
W Diffraction and diffraction kinematics Two classes of diffractive events: Q2~0 →photoproduction Q2>>0 → deep inelastic scattering (DIS) ´ HERA:~10% of low-x DIS events diffractive momentum fraction of color singlet exchange My t My =mp proton stays intact, needs detector setup to detect protons My ›mp proton dissociates background to be understoodand disantangled fraction of exchange momentum, coupling to γ* 4-momentum transfer squared (or Pt2of proton) Low x workshop, Ischia 2009
Methods of diffractive ev.selection Proton spectrometers ZEUS: LPS (1993-2000) H1: FPS (1995-2007) t measurement access to high xIP range free of p-dissociation background at low xIP small acceptance low statistics ☠ Neutron spectrometers xL = pz’/pz Acceptance limited by beam apertures and beam size, Pt resolution dominated by Pt spread of proton beam 50-100 MeV resolution 2-3mm Low x workshop, Ischia 2009
diff. non-diff Methods of diffractive ev. selection Large Rapidity Gap, H1, ZEUS: require no activity beyond ηmax t not measured, very good acceptance at low xIP p-diss background about 20% ☠ Mx method, ZEUS: diffractive vs non-diffractive: exponential fall off vs constant distribution in ln Mx2 p-diss background ☠ e p Different systematics – non-trivial to compare! Low x workshop, Ischia 2009
Diffractive cross section at low y → diffractive reduced cross section if Integrate over t when proton is not tagged →σRD(3)(β,Q2,xP) Low x workshop, Ischia 2009
Comparison H1 FPS & ZEUS LPS The cleanest comparison, all available data used by both collaborations, H1 HERA II 20 times improved statistics, higher Q2 Fair agreement, normalisation uncertainty →LPS~10%, FPS ~6% Low x workshop, Ischia 2009
Comparison between methods Are „rapidity gap“ and „forward proton“ methods compatible? • LRG selection contains about20% events of proton diss. • no significant dependence on any variable • well controlled, precise measurements ratio ZEUS, LPS/LRG = 0.76 0.01 0.03 0.08 0.02 0.05 Precise knowledge and corrections for proton dissociation background - key point in H1- ZEUS data comparison H1, LRG/FPS = 1.18 0.010.060.10 Low x workshop, Ischia 2009
H1 & ZEUS inclusive diffraction,LRG Q2 (GeV2) Q2 (GeV2) Good agreement between H1 and ZEUS in most of the phase space, (except low Q2), ZEUS scaled by 0.87, covered by normalisation uncertainty Low x workshop, Ischia 2009
Soft pomeron, Regge model Regge model: analytic model of HADRONIC scattering Exchange of collective states: linear trajectories in the spin- energy (α,t) plane, σpp IP IR αj(t)= αj(0)+α´j(t) (j=IR,IP,..) In γ*p→XY virtual photon resolves structure of exchanged object dominant contribution looks similar to soft pomeron, we can extract Regge trajectory Low x workshop, Ischia 2009
xIP dependence for two t values Reduced cross section measured for the first time at two t values Low xIP and high β, decrease with increasing xIP→IP-like behaviour High xIP and low β, increase with increasing xIP→IR-like behaviour Lines – results of Regge fit Regge fit, IP+IR Not soft pomeron, different multi-pomeron absorption effects? Low x workshop, Ischia 2009
Proton tagged data – t dependence Fitting to e-bt →b ~6-7GeV-2 independent of β, Q2 Almost no xIP dependence → Low x workshop, Ischia 2009
Proton vertex factorisation Regge fit in different Q2 bins, no strong evidence for αIP(0) dependence • Variables (xIP,t) describing proton vertex • factorise from those at photon vertex (Q2,β) to good approximation. • Q2 and β dependence interpreted in terms of • Diffractive Parton Densities (DPDF) → • measurement of partonic structure of exchange, • NLO QCD fits – see next talk of M.Capua Low x workshop, Ischia 2009
→ DPDFs – obey DGLAP, universal for diff. ep DIS (inclusive,dijet,charm) → universal hard scattering cross section (same as in inclusive DIS) QCD factorisation • Factorisation holds for inclusive and non-inclusive processes when: • photon is point-like (Q2 is high enough) • higher twist corrections are negligible (Mx is high enough) It allows to extract DPDFs from the (DIS) data H1 and ZEUS –QCD fits assuming Regge factorisation for DPDF pomeron flux factor pomeron PDF Low x workshop, Ischia 2009
How to profit from factorisation? • to extract DPDFs from inclusive DIS and to estimate cross sections for • dijet and D* production – then compare with data • tests of factorisation • to extract DPDFs from inclusive and semi-inclusive DIS (dijets,D*) – only • semi-inclusive data are sensitive to gluon contribution, mainly at large zIP Used by H1 and ZEUS semi-inclusive data dijets in DIS EPJ C52 (2007) 813 4 < Q2 < 80 GeV2 0.1 < y < 0.7 xIIP < 0.03 P*tjet1 > 5.5 GeV P*tjet2 > 4 GeV -3. < η*jets < 0. JHEP 0710 042 (2007) Low x workshop, Ischia 2009
γ*p pp Factorisation in hadron-hadron collisions Factorisation broken by β-dependent factor ~ 10, S ~ 0.1 Exporting DPDFs from HERA to Tevatron….. Succesfully explained by terms of rescattering and absorption (see Kaidalov,Khoze,Martin,Ryskin:Phys.Lett.B567 (2003),61) Must be understood for LHC…e.g. CEP Higgs, (S=1-3%), related to underlying event….. xIP integrated effective DPDFs from CDF single diff. dijets (run I) Low x workshop, Ischia 2009
resolved photoproduction (Q2≃0): photon fluctuates into hadronic system,which takespart in hadronicscattering,dominant at Q2≃0 xγ<1 (at parton level) Photoproduction, γ⋆p, Q2→0 In LO! xγ - fraction of photon’s momentum inhard subprocess direct photoproduction (Q2≃0): photon directly involved in hard scattering xγ=1 (at parton level) Low x workshop, Ischia 2009
Photoproduction ashadronic process HERA resolved photoproduction Secondary interactions between spectators Typical models that describe suppression at Tevatron assume secondary interactions of spectators as the cause: resolved contribution expected to be suppressed by factor 0.34 see Kaidalov et al. Low x workshop, Ischia 2009
σ (data) S= σ (theory) Lower Et cut scenario Etjet1> 5 GeV Integrated survival probabilities (ISP → S) Good agreement with published H1 results (EPJ C51, (2007),549 Within errors no difference in ISP using different DPDFs No difference in survival probabilities for resolved and direct regions of xγ, like in previous H1 and ZEUS analyses Low x workshop, Ischia 2009
Double ratio of Data/NLO for photoproduction and DIS → Figure extracted from published results H1 – double ratio, Et dependence? Very useful – full or partial cancellation of many uncertainties (energy scales for data, DPDFs used…etc ). W.Slomiński, ZEUS, DIS 2008 Hint that suppression is within errors Et dependent! Low x workshop, Ischia 2009
Higher Et cut scenario Etjet1> 7.5 GeV Now much more „direct-like“ events than in low Et analysis, peak at higher xγ Integrated survival probabilities (ISP) Larger ISP than for lower Et cut scenario Low x workshop, Ischia 2009
New ZEUS fit-comparison with old data Published data: EPJ C55 (2008) 177 Very good description → no evidence for suppression for ZEUS combined fit and H1 fit jets→ ISP ~ 1….. Low x workshop, Ischia 2009
Ratio diffractive to inclusive Proposed by Kaidalov et al. Phys.Lett B567 (2003) 61 Full or partial cancellation of PDF uncertainties, scales….. Distribution of xγsensitive to gap survival. H1 - measured in same kinematic range with same method as diffractive cross sections Acceptance corrections – PYTHIA Problem → describes low Etinclusive data with inclusion of multiple interactions only, large hadronisation corrections! Such a low Et jets also not properly described by NLO – see eg. H1 inclusive jet paper (EPJ C 129 (2003) 497) Low x workshop, Ischia 2009
Ratio diffractive to inclusive Ep=820 GeV Ep=930 GeV zIP < 0.8 • comparison to MC models - RAPGAP/PYTHIA • very different phase space for incl.& diffractive • large sensitivity to multiple interactions (MI)for inclusive dijets • better agreement of data ratio with PYTHIA MI • due to these facts - interpretation difficult Low x workshop, Ischia 2009
Leading baryons,production mechanisms A semi-inclusive reactions: ep →epX ep →enX xL → large t → small xL → large t → small Exchange of virtual particle→ proton: neutral iso-scalar, iso-vector, (p,IR,IP) neutron: charged iso-vector, (p+,a2,rho+) Conventional fragmentation of proton remnant – eg. Lund string model Low x workshop, Ischia 2009
Vertex factorisation in LB production Secondary interactions can fill the gap associated with pexchange Low x workshop, Ischia 2009
dσLP/dxL normalised to inclusive DIS data 1997 two ranges of Q2 Data 1997 • clear diffractive peak at xL→ 1 • proton yield flat bellow xL < 0.95 • consistent with previous low Q2 • data (1995) Low x workshop, Ischia 2009
PT2 distribution in xL bins Clear different trends for LP and LN Low x workshop, Ischia 2009
Comparison of leading proton and neutron yields Restricted to common pt2 range where det.acceptances overlap • pure isovector (eg.pion) exchange • LP = ½ LN • we observe • LP ~ 2LN Consistent with quark additive model but not with particle exchange model, additional Regge contributions (isoscalar)to account for observed rates! Low x workshop, Ischia 2009
Comparison with models Standard fragmentation models Model with multiple exchange IR IP Cross sections Do not describe data out of diff.peak Much better description Low x workshop, Ischia 2009
Ratios of LP to inclusive DIS yields Rates to inclusive DIS F2LP(4)/F2 analogous to proton F2 for events with LP Also a function of xL and pT, but no xL and pT dependence…. Rate is approximately constant in Q2 and x with the value ~ 0.24 Low x workshop, Ischia 2009
Leading neutron production in DIS DJANGO – standard fragmentation, too low x-section, diff. xL RAPGAP – p+exchange Only mixture of RAPGAP and DJANGO MC´s is able to describe the data. Low x workshop, Ischia 2009
LN cross section - models 0 xL ZEUS coll. Nucl.Phys. B 776, (2007),1 Neither pion exchange nor standard fragmentation alone can describe LN DIS data. Low x workshop, Ischia 2009
Ratio F2LN(Q2,x,xL)/F2(Q2,x) Ratio F2LN(Q2,x,xL)/F2(Q2,x) is mostly flat in Q2 and x like in Leading Proton measurement (see ZEUS) Compatible with vertex factorisation hypothesis Low x workshop, Ischia 2009
Exchange model refinement: absorptive corrections Neutron absorption through rescattering: • enhanced when the size of pn system is small, • neutron breaks up or • neutron is kicked out to lower xL and higher pt (migration) • or escapes detector acceptance – (absorption loss) • Size depends on scale Q2, more absorption in photoproduction • than in DIS (larger transverse size of γ⋆) Models without absorption may overestimate the measurements. Models with absorption and migrations: D´Alessio, Pirner; Nikolaev, Speth, Zakharov; Kaidalov, Khoze, Martin, Ryskin; Kopeliovich, Potashnikova, Schmidt, Soffer Absorption – key ingredient in calculations of gap survival probability in pp interactions at LHC, critical for hard diffractive processes –eg. diffractive exlusive Higgs production. Low x workshop, Ischia 2009
Comparison - photoproduction & DIS Leading Protons Leading Neutrons DIS DIS Ratio γ⋆p /DIS DIS γ⋆p γ⋆p Increase of LP and LN rates with Q2 Higher Q2→ smaller transverse γ⋆size → less absorption → larger event yield Absorption models are more succesful Low x workshop, Ischia 2009
Conclusions • new comparison of methods LRG & proton spectrometers → • contribution of proton dissociation in LRG sample about 20%, • methods consistent in shape of diffractive reduce cross section • consistent results H1 and ZEUS • consistent with proton vertex factorisation • dijets in photoproduction – hint that suppression is dependent on Et of the • leading jet →factorisation OK for high Et? • in similar kinematic region (and QCD fits which use dijets in DIS) → • H1 and ZEUS suppression compatible (H1 ~ 0.8, ZEUS ~ 1) • suppression is the same for direct enriched and resolved enriched events • (in contradiction with theory….) • precise measurements of leading baryons xL and pT2 provided • F2LN/F2 and F2LP/F2 are mostly independent on Q2 and x • standard fragmentation models do not describe the data • - models combining particle exchange and standard fragmentation • are more succesful • increase of proton & neutron yields with Q2 - absorption should be taken • into account Low x workshop, Ischia 2009